#     Copyright 2024, Kay Hayen, mailto:kay.hayen@gmail.com find license text at end of file


""" Code generation for locals dict handling.

These are variable handling for classes and partially also Python2 exec
statements.
"""

from .CodeHelpers import (
    generateExpressionCode,
    withObjectCodeTemporaryAssignment,
)
from .Emission import SourceCodeCollector
from .ErrorCodes import (
    getErrorExitBoolCode,
    getErrorExitCode,
    getNameReferenceErrorCode,
)
from .Indentation import indented
from .PythonAPICodes import getReferenceExportCode
from .templates.CodeTemplatesVariables import (
    template_read_locals_dict_with_fallback,
    template_read_locals_dict_without_fallback,
    template_read_locals_mapping_with_fallback_no_ref,
    template_read_locals_mapping_with_fallback_ref,
    template_read_locals_mapping_without_fallback,
)


def generateSetLocalsDictCode(statement, emit, context):
    locals_declaration = context.addLocalsDictName(
        statement.getLocalsScope().getCodeName()
    )

    emit(
        """\
%(locals_dict)s = MAKE_DICT_EMPTY(tstate);"""
        % {"locals_dict": locals_declaration}
    )


def generateSetLocalsMappingCode(statement, emit, context):
    new_locals_name = context.allocateTempName("set_locals")

    generateExpressionCode(
        to_name=new_locals_name,
        expression=statement.subnode_new_locals,
        emit=emit,
        context=context,
    )

    locals_declaration = context.addLocalsDictName(
        statement.getLocalsScope().getCodeName()
    )

    emit(
        """\
%(locals_dict)s = %(locals_value)s;"""
        % {"locals_dict": locals_declaration, "locals_value": new_locals_name}
    )

    getReferenceExportCode(new_locals_name, emit, context)

    if context.needsCleanup(new_locals_name):
        context.removeCleanupTempName(new_locals_name)


def generateReleaseLocalsDictCode(statement, emit, context):
    locals_declaration = context.addLocalsDictName(
        statement.getLocalsScope().getCodeName()
    )

    emit(
        """\
Py_DECREF(%(locals_dict)s);
%(locals_dict)s = NULL;"""
        % {"locals_dict": locals_declaration}
    )


def generateLocalsDictSetCode(statement, emit, context):
    value_arg_name = context.allocateTempName("dictset_value", unique=True)
    generateExpressionCode(
        to_name=value_arg_name,
        expression=statement.subnode_source,
        emit=emit,
        context=context,
    )

    context.setCurrentSourceCodeReference(statement.getSourceReference())

    locals_scope = statement.getLocalsDictScope()

    locals_declaration = context.addLocalsDictName(locals_scope.getCodeName())

    is_dict = locals_scope.hasShapeDictionaryExact()

    if is_dict:
        res_name = context.getBoolResName()

        emit(
            "%s = DICT_SET_ITEM(%s, %s, %s);"
            % (
                res_name,
                locals_declaration,
                context.getConstantCode(statement.getVariableName()),
                value_arg_name,
            )
        )

        getErrorExitBoolCode(
            condition="%s == false" % res_name,
            release_name=value_arg_name,
            needs_check=statement.mayRaiseException(BaseException),
            emit=emit,
            context=context,
        )
    else:
        res_name = context.getIntResName()

        emit(
            "%s = PyObject_SetItem(%s, %s, %s);"
            % (
                res_name,
                locals_declaration,
                context.getConstantCode(statement.getVariableName()),
                value_arg_name,
            )
        )

        getErrorExitBoolCode(
            condition="%s != 0" % res_name,
            release_name=value_arg_name,
            needs_check=statement.mayRaiseException(BaseException),
            emit=emit,
            context=context,
        )


def generateLocalsDictDelCode(statement, emit, context):
    locals_scope = statement.getLocalsDictScope()

    dict_arg_name = locals_scope.getCodeName()

    is_dict = locals_scope.hasShapeDictionaryExact()

    context.setCurrentSourceCodeReference(statement.getSourceReference())

    if is_dict:
        res_name = context.getBoolResName()

        emit(
            "%s = DICT_REMOVE_ITEM(%s, %s);"
            % (
                res_name,
                dict_arg_name,
                context.getConstantCode(statement.getVariableName()),
            )
        )

        getErrorExitBoolCode(
            condition="%s == false" % res_name,
            needs_check=statement.mayRaiseException(BaseException),
            emit=emit,
            context=context,
        )
    else:
        res_name = context.getIntResName()

        emit(
            "%s = PyObject_DelItem(%s, %s);"
            % (
                res_name,
                dict_arg_name,
                context.getConstantCode(statement.getVariableName()),
            )
        )

        getErrorExitBoolCode(
            condition="%s == -1" % res_name,
            needs_check=statement.mayRaiseException(BaseException),
            emit=emit,
            context=context,
        )


def generateLocalsDictVariableRefOrFallbackCode(to_name, expression, emit, context):
    variable_name = expression.getVariableName()

    fallback_emit = SourceCodeCollector()

    with withObjectCodeTemporaryAssignment(
        to_name, "locals_lookup_value", expression, emit, context
    ) as value_name:
        generateExpressionCode(
            to_name=value_name,
            expression=expression.subnode_fallback,
            emit=fallback_emit,
            context=context,
        )

        locals_scope = expression.getLocalsDictScope()
        locals_declaration = context.addLocalsDictName(locals_scope.getCodeName())

        is_dict = locals_scope.hasShapeDictionaryExact()

        needs_ref = context.needsCleanup(value_name)

        if is_dict:
            template = template_read_locals_dict_with_fallback
            fallback_codes = indented(fallback_emit.codes)

            emit(
                template
                % {
                    "to_name": value_name,
                    "locals_dict": locals_declaration,
                    "dict_get_item": (
                        "DICT_GET_ITEM1" if needs_ref else "DICT_GET_ITEM0"
                    ),
                    "fallback": fallback_codes,
                    "var_name": context.getConstantCode(constant=variable_name),
                }
            )

            if needs_ref:
                context.addCleanupTempName(value_name)
        else:
            if needs_ref:
                template = template_read_locals_mapping_with_fallback_ref
            else:
                template = template_read_locals_mapping_with_fallback_no_ref

            fallback_codes = indented(fallback_emit.codes, 2)

            emit(
                template
                % {
                    "to_name": value_name,
                    "locals_dict": locals_declaration,
                    "fallback": fallback_codes,
                    "var_name": context.getConstantCode(constant=variable_name),
                    "exception_exit": context.getExceptionEscape(),
                }
            )

            # If the fallback took no reference, then make it do it
            # anyway.
            if not needs_ref:
                context.addCleanupTempName(value_name)


def generateLocalsDictVariableRefCode(to_name, expression, emit, context):
    variable_name = expression.getVariableName()
    locals_scope = expression.getLocalsDictScope()

    locals_declaration = context.addLocalsDictName(locals_scope.getCodeName())

    is_dict = locals_scope.hasShapeDictionaryExact()

    if is_dict:
        template = template_read_locals_dict_without_fallback
    else:
        template = template_read_locals_mapping_without_fallback

    with withObjectCodeTemporaryAssignment(
        to_name, "locals_lookup_value", expression, emit, context
    ) as value_name:
        emit(
            template
            % {
                "to_name": value_name,
                "locals_dict": locals_declaration,
                "var_name": context.getConstantCode(constant=variable_name),
            }
        )

        getNameReferenceErrorCode(
            variable_name=variable_name,
            condition="%s == NULL && CHECK_AND_CLEAR_KEY_ERROR_OCCURRED(tstate)"
            % value_name,
            emit=emit,
            context=context,
        )

        getErrorExitCode(check_name=value_name, emit=emit, context=context)

        if not is_dict:
            context.addCleanupTempName(value_name)


def generateLocalsDictVariableCheckCode(to_name, expression, emit, context):
    variable_name = expression.getVariableName()

    locals_scope = expression.getLocalsDictScope()

    locals_declaration = context.addLocalsDictName(locals_scope.getCodeName())

    is_dict = locals_scope.hasShapeDictionaryExact()

    if is_dict:
        to_name.getCType().emitAssignmentCodeFromBoolCondition(
            to_name=to_name,
            condition="DICT_HAS_ITEM(tstate, %(locals_dict)s, %(var_name)s) == 1"
            % {
                "locals_dict": locals_declaration,
                "var_name": context.getConstantCode(constant=variable_name),
            },
            emit=emit,
        )
    else:
        tmp_name = context.getIntResName()

        template = """\
%(tmp_name)s = MAPPING_HAS_ITEM(tstate, %(locals_dict)s, %(var_name)s);
"""

        emit(
            template
            % {
                "locals_dict": locals_declaration,
                "var_name": context.getConstantCode(constant=variable_name),
                "tmp_name": tmp_name,
            }
        )

        getErrorExitBoolCode(
            condition="%s == -1" % tmp_name,
            needs_check=expression.mayRaiseException(BaseException),
            emit=emit,
            context=context,
        )

        to_name.getCType().emitAssignmentCodeFromBoolCondition(
            to_name=to_name, condition="%s == 1" % tmp_name, emit=emit
        )


#     Part of "Nuitka", an optimizing Python compiler that is compatible and
#     integrates with CPython, but also works on its own.
#
#     Licensed under the Apache License, Version 2.0 (the "License");
#     you may not use this file except in compliance with the License.
#     You may obtain a copy of the License at
#
#        http://www.apache.org/licenses/LICENSE-2.0
#
#     Unless required by applicable law or agreed to in writing, software
#     distributed under the License is distributed on an "AS IS" BASIS,
#     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
#     See the License for the specific language governing permissions and
#     limitations under the License.
